Hi Dr. B!!!! Thank you so much for your advice from last video! It worked like a charm!! Nature is flourishing, birds are singing, flowers are blooming, my world is completed once more. Thank you so much again, Dr. B, you have saved my relationship. xoxo, Bokto.
Excellent explanation. Can you do one on why and how they (edit: ammonia and water) have affinity for each other and what that looks like geometrically as well?
Hello Dr. B! Do you have any videos explaining the topic "how to compare acidic and basic strengths of compounds"? I'm really confused by these questions....
Realized that wasn't the best explanation. To help augment what I mentioned, a look at the reactivity series will offer some insight. You'll see that hydrogen is way down the list, typically shown above copper, forming the line where acids will and won't directly attack metals. If an acid encounters something below the hydrogen line, it will have even less interest in the anion of the acid than the hydrogen, and no reaction occurs - generally speaking. HNO3 and Cu are one of the exceptions, but there's more going on there than meets the eye, as nitric acid is an oxidizer and the nitrate anion has a propensity for giving up one of its oxygens as well (all visible in the overall dance with copper). Everything above the hydrogen line will react with acids, with increasing vigor, as one goes up the list. Near the top you find the alkali metals, where it tends to get downright violent.
Hello sir it is my request for you to make a prooper playlist of all the videos topicwise that would be really helpful cuz it hard to navigate through your videos
Yes, RUclips really doesn't have a very good way to organize videos easily. Does something like this for each topic make sense ?ruclips.net/p/PLZR1BGWBaZ1xfTUby1ttQ3K3G-Xobj9Hb
Someone asked me the difference bt bonding and non-bonding pairs so it seemed like an interesting video. I really like the visualization software at phet.colorado.edu/sims/html/molecule-shapes/latest/molecule-shapes_en.html
My head was exploding until god blessed me with this guy
Love this guy he really taught me the core principles of chem for free what a legend
Hey thanks!
Hi Dr. B!!!! Thank you so much for your advice from last video! It worked like a charm!! Nature is flourishing, birds are singing, flowers are blooming, my world is completed once more. Thank you so much again, Dr. B, you have saved my relationship.
xoxo, Bokto.
Excellent!
Happy to see you back. Happy belated New Years and holiday to you and yours as well as to Appa and Mono . DVD:)
Thanks David! Hope you, Oreo, and Ginger had a great new years as well!
@@wbreslyn We did...Thank you D:)
The animation you used to show the lone and bonded pairs was brilliant! What did you use?
This one:
phet.colorado.edu/sims/html/molecule-shapes/latest/molecule-shapes_en.html
It is one of my favorites!
@@wbreslyn wow, thanks !
it's fun watching vids like this, the more i watch the more i want to know more about things like this, keep on teaching your'e so cool!😎💙
Thanks for the kind words!
Excellent explanation.
Can you do one on why and how they (edit: ammonia and water) have affinity for each other and what that looks like geometrically as well?
SEE!! NOW THTS WHT'S CALL EXPLANATIONS.. GOD BLESS U FR
Hello Dr. B!
Do you have any videos explaining the topic "how to compare acidic and basic strengths of compounds"?
I'm really confused by these questions....
Sorry for the delayed response! I don't have any videos but this is good at explaining:
chemed.chem.purdue.edu/genchem/topicreview/bp/ch11/factors.php
Thanks for nice explanation.
Thank you so much for your videos, B! They're helping me a lot!! (:
You're so welcome!
I have a question that, " Since, HCl, HNO3, releases their Hydrogen ion while Glucose or Alcholol don't. Why?"
Realized that wasn't the best explanation. To help augment what I mentioned, a look at the reactivity series will offer some insight.
You'll see that hydrogen is way down the list, typically shown above copper, forming the line where acids will and won't directly attack metals. If an acid encounters something below the hydrogen line, it will have even less interest in the anion of the acid than the hydrogen, and no reaction occurs - generally speaking. HNO3 and Cu are one of the exceptions, but there's more going on there than meets the eye, as nitric acid is an oxidizer and the nitrate anion has a propensity for giving up one of its oxygens as well (all visible in the overall dance with copper).
Everything above the hydrogen line will react with acids, with increasing vigor, as one goes up the list. Near the top you find the alkali metals, where it tends to get downright violent.
Hello sir it is my request for you to make a prooper playlist of all the videos topicwise that would be really helpful cuz it hard to navigate through your videos
Yes, RUclips really doesn't have a very good way to organize videos easily. Does something like this for each topic make sense
?ruclips.net/p/PLZR1BGWBaZ1xfTUby1ttQ3K3G-Xobj9Hb
@@wbreslyn yes sir please make more kind of these topic wise playlist
@@mrburger4743 yeah i was asking about this
Thank you so much
Helps a lot thank you :)
You're welcome!
I am from nepal ❤
Wow
thanks!
is that all u know ?
Someone asked me the difference bt bonding and non-bonding pairs so it seemed like an interesting video. I really like the visualization software at phet.colorado.edu/sims/html/molecule-shapes/latest/molecule-shapes_en.html
@@wbreslynwhy electrons in lone pair i.e 2 electron are placed together in a lone pair but why don't that electron don't repel each other
They do but the attraction to the positively charged nucleus is large enough to overcome the repulsion.
🙄